h2020 sc5 projects catalogue a4

Climate action, environment,

resource efficiency and raw materials

Horizon 2020

The EU Framework Programme for Research and Innovation

CATALOGUE OF R&I PROJECTS - 2014

EUROPEAN COMMISSION

Directorate-General for Research and Innovation Directorate I Climate action and resource efficiency Unit I.1 Strategy

Contact: Avelino Gonzalez Gonzalez

E-mail: [email protected]

European Commission B-1049 Brussels

EUROPEAN COMMISSION

Catalogue of R&I projects

CALLS 2014

Climate action, environment, resource efficiency

and raw materials

HORIZON 2020

Directorate-General for Research and Innovation 2014 Climate action, environment, resource efficiency and raw materials EN

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Table of contents

Project Nr.

Project Acronym Project Title Type

of Action

Page

Fighting and adapting to climate change

652641 EU-PolarNet Connecting Science with Society CSA 7

653255 PLACARD PLAtform for Climate Adaptation and Risk reDuction CSA 8

653522 RESIN Climate Resilient Cities and Infrastructures RIA 9

653824 EU-CIRCLE A panEuropean framework for strengthening Critical Infrastructure resilience to climate change

RIA 10

641727 PRIMAVERA PRocess-based climate sIMulation: AdVances in high resolution modelling and European climate Risk Assessment

RIA 11

641816 CRESCENDO Coordinated Research in Earth Systems and Climate: Experiments, kNowledge, Dissemination and Outreach

RIA 12

642260 TRANSrisk Transitions pathways and risk analysis for climate change mitigation and adaption strategies

RIA 13

642018 GREEN-WIN Green growth and win-win strategies for sustainable climate action RIA 14

642147 CD-LINKS Linking Climate and Development Policies - Leveraging International Networks and Knowledge Sharing

RIA 15

642242 CARISMA Coordination and Assessment of Research and Innovation in Support of Climate Mitigation Actions

CSA 16

Protection of the environment, sustainable management of natural resources, water , biodiversity and ecosystems

641918 AfricanBioServices Linking biodiversity, ecosystem functions and services in the Great Serengeti-Mara Ecosystem (GSME) - drivers of change, causalities and sustainable management strategies

RIA 17

642317 AQUACROSS Knowledge, Assessment, and Management for AQUAtic Biodiversity and Ecosystem Services aCROSS EU policies (AQUACROSS)

RIA 18

642045 BRODISE BROWNFIELD Decontamination In Southern Europe. Preparing PCP to R+D for efficient, cost effective and innovative solutions for brownfields decontamination

CSA 19

642420 BiodivERsA3 Consolidating the European Research Area on biodiversity and ecosystem services ERA-NET-Cofund

20

642007 ESMERALDA Enhancing ecoSysteM sERvices mApping for poLicy and Decision mAking CSA 21

642372 INSPIRATION INtegrated Spatial PlannIng, land use and soil management Research ActTION CSA 22

Ensuring the sustainable supply of non-energy and non-agricultural raw materials

641989 Real-Time-Mining Real-time optimization of extraction and the logistic process in highly complex geological and selective mining settings

RIA 23

642456 BioMOre New Mining Concept for Extracting Metals from Deep Ore Deposits using Biotechnology RIA 24

642477 VAMOS Viable and Alternative Mine Operating System! RIA 25

641650 FAME Flexible and Mobile Economic Processing Technologies RIA 26

642201 OptimOre Increasing yield on Tungsten and Tantalum ore production by means of advanced and flexible control on crushing, milling and separation process

RIA 27

641864 INREP Towards Indium free TCOs RIA 28

641927 INFINITY Indium-Free Transparent Conductive Oxides for Glass and Plastic Substrates RIA 29

642139 MINATURA 2020 Developing a concept for a European minerals deposit framework CSA 30

642130 INTRAW International cooperation on Raw materials CSA 31

Enabling the transition towards a green economy and society through eco-innovation

641974 green.eu European Global Transition Network on Eco-Innovation, Green Economy and Sustainable Development

CSA 32

666206 WINTHERWAX WINdow based on THERmally modified wood with high performance WAX coating SME-2 33

666425 ECO-SILENTWOOD

Cost competitive eco-friendly and acoustic wooden doors for indoor applications SME-2 34

666427 ADD-ON A demonstration plant of enhanced biogas production with Add-On technology SME-2 35

666726 ScalinGreen Innovative solutions to scale-up urban green surfaces across Europe SME-2 36

641942 RESYNTEX A new circular economy concept: from textile waste towards chemical and textile industries feedstock

IA 37

641972 CABRISS Implementation of a CirculAr economy Based on Recycled, reused and recovered Indium, Silicon and Silver materials for photovoltaic and other applications

IA 38

642067 RESLAG Turning waste from steel industry into a valuable low cost feedstock for energy intensive industry

IA 39

642154 FISSAC FOSTERING INDUSTRIAL SYMBIOSIS FOR A SUSTAINABLE RESOURCE INTENSIVE INDUSTRY ACROSS THE EXTENDED CONSTRUCTION VALUE CHANGE

IA 40

642384 BAMB Buildings as Material Banks: Integrating Materials Passports with Reversible Building Design to Optimise Circular Industrial Value Chains

IA 41

641747 CloseWEEE Integrated solutions for pre-processing electronic equipment, closing the loop of post-consumer high-grade plastics, and advanced recovery of critical raw materials antimony and graphite

RIA 42

642085 HISER Holistic Innovative Solutions for an Efficient Recycling and Recovery of Valuable Raw Materials from Complex Construction and Demolition Waste

RIA 43

642231 New_Innonet NEW_InnoNet: The Near-zero European Waste Innovation Network CSA 44

641660 EWIT EWIT: Developing an e-waste implementation toolkit to support the recycling and the secondary raw material recovery strategies in metropolitan areas in Africa

CSA 45

641999 ProSUM Prospecting Secondary raw materials in the Urban mine and Mining waste CSA 46

642451 PPI4Waste Promotion of Public Procurement of Innovation for Resource Efficiency and Waste Treatment

CSA 47

640771 MASLOWATEN MArket uptake of an innovative irrigation Solution based on LOW WATer-ENergy consumption

IA 48

641661 POWERSTEP Full scale demonstration of energy positive sewage treatment plant concepts towards market penetration

IA 49

641702 Eco-UV Low carbon footprint and eco-innovative UV water disinfection IA 50

641768 REGROUND Colloidal Iron Oxide Nanoparticles for the REclamation of Toxic Metal Contaminated GROUNDwater Aquifers, Drinking Water Wells, and River Bank Filtrations

IA 51

641931 CENTAUR Cost Effective Neural Technique for Alleviation of Urban Flood Risk IA 52

641998 REMEB ECO-FRIENDLY CERAMIC MEMBRANE BIOREACTOR (MBR) BASED ON RECYCLED AGRICULTURAL AND INDUSTRIAL WASTES FOR WASTE WATER REUSE

IA 53

642190 iMETland iMETland: A new generation of Microbial Electrochemical Wetland for effective decentralized wastewater treatment

IA 54

642228 SUBSOL bringing coastal SUBsurface water SOLutions to the market IA 55

642258 MOSES Managing crOp water Saving with Enterprise Services IA 56

642356 CYTO-WATER Integrated and portable image cytometer for rapid response to Legionella and Escherichia coli in industrial and environmental waters

IA 57

642494 ECWRTI ECOLORO: Reuse of Waste Water from the Textile Industry IA 58

641739 BINGO Bringing INnovation to onGOing water management A better future under climate change

RIA 59

641811 IMPREX IMproving PRedictions and management of hydrological EXtremes RIA 60

641715 WaterWorks2014 Water Works 2014-2019 in Support of the Water JPI ERA-NET-Cofund

61

641821 WATERINNEU Applying European market leadership to river basin networks and spreading of innovation on water ICT models, tools and data

CSA 62

642047 KINDRA Knowledge Inventory for hydrogeology research CSA 63

642224 FREEWAT FREE and open source software tools for WATer resource management CSA 64

642354 BlueSCities Blueprints for Smart Cities: Developing the methodology for a coordinated approach to the integration of the water and waste sectors within the EIP Smart Cities and Communities

CSA 65

642423 WIDEST Water Innovation through Dissemination Exploitation of Smart Technologies CSA 66

642433 PIANO Policies, Innovation And Networks for enhancing Opportunities for China Europe Water Cooperation

CSA 67

Developing comprehensive and sustained global environmental observation and information systems

633211 AtlantOS Optimizing and Enhancing the Integrated Atlantic Ocean Observing System RIA 68

641762 ECOPOTENTIAL ECOPOTENTIAL: IMPROVING FUTURE ECOSYSTEM BENEFITS THROUGH EARTH OBSERVATIONS

RIA 70

642088 SWOS Satellite-based Wetland Observation Service RIA 72

641538 ConnectinGEO Coordinating an Observation Network of Networks EnCompassing saTellite and IN-situ to fill the Gaps in European Observations

CSA 73

Cultural heritage

637268 RIBuild Robust Internal Thermal Insulation of Historic Buildings RIA 74

Specific implementation aspects: Climate action, environment, resource efficiency and raw materials

642025 NCPs CaRE National Contact Points for Climate action, Raw materials, Environment and Resource Efficiency

CSA 75

Cata

logue o

f Pro

jects

H2020-BG-2014-1 EU-PolarNet 652641

Title: Connecting Science with Society

Topic: BG-15-2014 Type of Action CSA Duration (months): 60

Project total tosts 2,174,503.75 Project EU contribution: 2,174,503

The rapid changes occurring in the Polar Regions are significantly influencing global climate with consequences for global society. European polar research has contributed critical knowledge to identifying the processes behind these rapid changes but, in contrast to lower latitudes, datasets from the Polar Regions are still insufficient to fully understand and more effectively predict the effects of change on our climate and society. This situation can only be improved by a more holistic integrated scientific approach, a higher degree of coordination of polar research and closer cooperation with all relevant actors on an international level as requested in the Horizon 2020 work programme. The objectives of EU-PolarNet are to establish an ongoing dialogue between policymakers, business and industry leaders, local communities and scientists to increase mutual understanding and identify new ways of working that will deliver economic and societal benefits. The results of this dialogue will be brought together in a plan for an Integrated European Research Programme that will be co-designed with all relevant stakeholders and coordinated with the activities of many other polar research nations beyond Europe, including Canada and the United States, with which consortium partners already have productive links.This consortium brings together well-established, world-class, multi-disciplinary research institutions whose science programmes are internationally recognised for excellence. Alongside these scientific capabilities, the national programmes represented in this proposal possess a unique array of infrastructure and operational expertise to support science in both Polar Regions. The consortium is uniquely well positioned to significantly enhance Europes capabilities to undertake state of the art science and cost-efficiently operate infrastructure in the hostile polar environments.

Abstract:

Partners:

Nr Participant Country

1 ALFRED-WEGENER-INSTITUT HELMHOLTZ- ZENTRUM FUER POLAR- UND MEERESFORSCHUNG DE

2 CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE FR

3 NATURAL ENVIRONMENT RESEARCH COUNCIL UK

4 CONSIGLIO NAZIONALE DELLE RICERCHE IT

5 POLARFORSKNINGSSEKRETARIETET SE

6 INSTITUT POLAIRE FRANCAIS PAUL EMILE VICTOR FR

7 Instituto de Geografia e Ordenamento do Territorio da Universidade de Lisboa PT

8 RIJKSUNIVERSITEIT GRONINGEN NL

9 NORGES FORSKNINGSRAD NO

10 MINISTERIO DE ECONOMIA Y COMPETITIVIDAD ES

11 AGENCIA ESTATAL CONSEJO SUPERIOR DE INVESTIGACIONES CIENTIFICAS ES

12 UNIVERSITAET WIEN AT

13 BULGARSKI ANTARTICHESKI INSTITUT ASSOCIATION BG

14 Geological Survey of Denmark and Greenland DK

15 VRIJE UNIVERSITEIT BRUSSEL BE

16 OULUN YLIOPISTO FI

17 INSTITUT ROYAL DES SCIENCES NATURELLES DE BELGIQUE BE

18 Instytut Geofizyki Polskiej Akademii Nauk PL

19 TALLINNA TEHNIKAULIKOOL EE

20 Arctic Monitoring and Assessment Programme Secretariat NO

21 WOC - WORLD OCEAN LIMITED UK

22 GRONLANDS NATURINSTITUT GL

The information presented in this document is partly provisional and subject to potential modifications.

- 7 -

H2020-DRS-2014 PLACARD 653255

Title: PLAtform for Climate Adaptation and Risk reDuction

Topic: DRS-09-2014 Type of Action CSA Duration (months): 60


Significant challenges exist towards strengthening the Climate Change Adaptation (CCA) and Disaster Risk Reduction (DRR) communities for coherent, mutually reinforcing and pragmatic planning and action. PLACARD seeks to support the coordination of these two communities. PLACARD will tackle current challenges by 1) providing a common space where CCA and DRR communities can come together, share experiences and create opportunities for collaboration; 2) facilitating communication and knowledge exchange between both communities; and 3) supporting the coordination and coherence of CCA and DRR research, policy and practice. PLACARDs approach to achieving these goals is to establish a strong and operational network of networks by connecting to existing networks and boundary organisations, to foster dialogue among stakeholders (e.g. researchers, research funders, policymakers, practitioners) engaged in CCA and DRR at the international, European, national and sub-national scales. This overarching network will enable these communities to share knowledge, to discuss challenges and to jointly co-produce options to bridge the gaps they experience. It will support the development and implementation of a research and innovation agenda to make better use of research funding, as well as to develop guidelines to strengthen relevant institutions in their efforts to mainstream CCA and DRR. PLACARD will evolve iteratively, learning from the different processes and experiences with the stakeholders, and being flexible and responsive to changing needs. PLACARD will be supported by an online platform that builds upon and links existing CCA and DRR platforms to streamline the dissemination and communication of CCA and DRR activities. PLACARD Consortium is built around the leadership of a number of key European institutions experienced in CCA and DRR policy and practice, and UN organizations leading and engaged inpost-2015 agendas.

Abstract:

Partners:


1 FUNDACAO DA FACULDADE DE CIENCIAS DA UNIVERSIDADE DE LISBOA PT

2 STIFTELSEN THE STOCKHOLM ENVIRONMENT INSTITUTE SE

3 HELMHOLTZ-ZENTRUM FUER UMWELTFORSCHUNG GMBH - UFZ DE

4 CENTRO EURO-MEDITERRANEO SUI CAMBIAMENTI CLIMATICI SCARL IT

5 THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD UK

6 UMWELTBUNDESAMT GMBH AT

7 UNITED NATIONS INTERNATIONAL STRATEGY FOR DISASTER REDUCTION CH

8 UNITED NATIONS ENVIRONMENT PROGRAMME KE

9 STICHTING INTERNATIONAL RED CROSS RED CRESCENT CENTRE ON CLIMATE CHANGE AND DISAS NL

10 STICHTING DIENST LANDBOUWKUNDIG ONDERZOEK NL


- 8 -

H2020-DRS-2014 RESIN 653522

Title: Climate Resilient Cities and Infrastructures

Topic: DRS-09-2014 Type of Action RIA Duration (months): 42


With most of its population and capital goods concentrated in urban areas, cities are key to the European economy. One of the major challenges cities face are more frequent extreme weather events due to climate change.The current diversity of approaches and methods available for cities developing an adaptation strategy limits the comparability between cities of vulnerabilities, adaptation options, infrastructures, etc., and, as a result, the resilience capability. The lack of standardized information to prioritize and select appropriate adaptation options restricts the exchange of experiences between cities. The objective of RESIN is to provide standardised methodologies for vulnerability assessments, performance evaluations of adaptation measures, and for decision support tools supporting the development of robust adaptation strategies tailored to the city. To this end, RESIN aims to create a common unifying framework that allows comparing strategies, results and identification of best practices by Creating an urban typology that characterises European cities based on different socio-economic and biophysical variables Delivering standardised methods for assessing climate change impacts, vulnerabilities, and risks; providing an inventory of adaptation measures and developing standardised methods to assess the performance of such adaptation measures Collaborating closely with 4 case cities for practical applicability and reproducibility, and with European Standardisation organisations to ensure a systematic (standardised) implementation Integrating findings in a coherent framework for the decision making process, with associated methods, tools and datasetsThe consortium consists of 17 partners from 8 different European countries, experienced in urban resilience and climate change, and combining theory (knowledge institutes/universities) with practice (cities, consultancies, network organisation, standardisation institute).

Abstract:

Partners:


1 NEDERLANDSE ORGANISATIE VOOR TOEGEPAST NATUURWETENSCHAPPELIJK ONDERZOEK - TNO NL

2 FRAUNHOFER-GESELLSCHAFT ZUR FOERDERUNG DER ANGEWANDTEN FORSCHUNG E.V DE

3 FUNDACION TECNALIA RESEARCH & INNOVATION ES

4 ICLEI EUROPEAN SECRETARIAT GMBH (ICLEI EUROPASEKRETARIAT GMBH)* DE

5 EIVP FR

6 ITTI SP ZOO PL

7 STICHTING NEDERLANDS NORMALISATIE - INSTITUUT NL

8 ARCADIS NEDERLAND BV NL

9 BC3 BASQUE CENTRE FOR CLIMATE CHANGE - KLIMA ALDAKETA IKERGAI ES

10 HLAVNE MESTO SLOVENSKEJ REPUBLIKY BRATISLAVA SK

11 THE UNIVERSITY OF MANCHESTER UK

12 UNIVERZITA KOMENSKEHO V BRATISLAVE SK

13 AYUNTAMIENTO DE BILBAO ES

14 OLDHAM METROPOLITAN BOROUGH COUNCIL UK

15 SIEMENS AKTIENGESELLSCHAFT OESTERREICH AT

16 SIEMENS AKTIENGESELLSCHAFT DE

17 UNIRESEARCH BV NL


- 9 -

H2020-DRS-2014 EU-CIRCLE 653824

Title: A panEuropean framework for strengthening Critical Infrastructure resilience to climate change

Topic: DRS-09-2014 Type of Action RIA Duration (months): 36


It is presently acknowledged and scientifically proven than climate related hazards have the potential to substantially affect the lifespan and effectiveness or even destroy of European Critical Infrastructures (CI), particularly the energy, transportation sectors, buildings, marine and water management infrastructure with devastating impacts in EU appraising the social and economic losses. The main strategic objective of EU-CIRCLE is to move towards infrastructure network(s) that is resilient to todays natural hazards and prepared for the future changing climate. Furthermore, modern infrastructures are inherently interconnected and interdependent systems ; thus extreme events are liable to lead to cascade failures. EU-CIRCLEs scope is to derive an innovative framework for supporting the interconnected European Infrastructures resilience to climate pressures, supported by an end-to-end modelling environment where new analyses can be added anywhere along the analysis workflow and multiple scientific disciplines can work together to understand interdependencies, validate results, and present findings in a unified manner providing an efficient Best of Breeds solution of integrating into a holistic resilience model existing modelling tools and data in a standardised fashion. It, will be open & accessible to all interested parties in the infrastructure resilience business and having a confirmed interest in creating customized and innovative solutions. It will be complemented with a webbased portal.The design principles, offering transparency and greater flexibility, will allow potential users to introduce fully tailored solutions and infrastructure data, by defining and implementing customised impact assessment models, and use climate / weather data on demand.

Abstract:

Partners:


1 NATIONAL CENTER FOR SCIENTIFIC RESEARCH "DEMOKRITOS" EL


3 METEOROLOGISK INSTITUTT NO

4 THE UNIVERSITY OF EXETER UK

5 AKADEMIA MORSKA W GDYNI PL

6 ARTELIA EAU ET ENVIRONNEMENT SAS FR

7 SATWAYS - PROIONTA KAI YPIRESIES TILEMATIKIS DIKTYAKON KAI TILEPIKINONIAKON EFARMOGON EL

8 ENTENTE POUR LA FORT MDITERRANENNE FR

9 D'APPOLONIA SPA IT

10 DRZAVNI HIDROMETEOROLOSKI ZAVOD HR

11 XUVASI LTD UK

12 MRK Management Consultants GmbH DE

13 AS CYPRUS COLLEGE LIMITED CY

14 CENTER FOR SECURITY STUDIES EL

15 THE UNIVERSITY OF SALFORD UK

16 Drzavna uprava za zastitu i spasavanje HR

17 ADITESS ADVANCED INTERGRATED TECHNOLOGY SOLUTIONS & SERVICES LTD CY

18 Torbay Council UK

19 MINISTRY OF NATIONAL DEFENCE, GREECE EL

20 Veleuciliste Velika Gorica HR

21 PATUAKHALI SCIENCE AND TECHNOLOGY UNIVERSITY BD


- 10 -

H2020-SC5-2014-two-stage PRIMAVERA 641727

Title: PRocess-based climate sIMulation: AdVances in high resolution modelling and European climate Risk Assessment

Topic: SC5-01-2014 Type of Action RIA Duration (months): 48


The goal of PRIMAVERA is to deliver novel, advanced and well-evaluated high-resolution global climate models (GCMs), capable of simulating and predicting regional climate with unprecedented fidelity, out to 2050. This capability will deliver innovative climate science and a new generation of advanced Earth System Models. Sector-specific end-users in policy and business will be identified and engaged individually, with iterative feedback, to ensure that new climate information is tailored, actionable and strengthening societal risk management decisions.These goals will be achieved through the development of coupled GCMs from seven groups across Europe, with sufficient resolution to reproduce realistic weather and climate features (~25km mesh size), in addition to enhanced process parameterisation. Thorough assessment will use innovative process-based metrics and the latest observational and reanalysis datasets. Targeted experimental design will reduce inter-model spread and produce robust projections, forming the European contribution to the CMIP6 High-Resolution Model Intercomparison Project, led by PRIMAVERA. It is the first time that high-resolution coupled GCMs will be used under a single experimental protocol. Coordination, and the underlying process-understanding, will significantly increase the robustness of our findings. Our new capabilities will be used to improve understanding of the drivers of variability and change in European climate, including extremes, since such regional changes continue to be characterised by high uncertainty. We will also explore the frontiers of climate modelling and of high performance computing to produce simulations with a reduced reliance on physical parameterisations. These will explicitly resolve key processes such as ocean eddies, and will include new stochastic parameterisations to represent sub-grid scale processes. These frontiers simulations will further our understanding of the robustness of climate projections.

Abstract:

Partners:


1 MET OFFICE UK

2 THE UNIVERSITY OF READING UK

3 KONINKLIJK NEDERLANDS METEOROLOGISCH INSTITUUT-KNMI NL

4 SVERIGES METEOROLOGISKA OCH HYDROLOGISKA INSTITUT SE

5 CENTRE EUROPEEN DE RECHERCHE ET DE FORMATION AVANCEE EN CALCUL SCIENTIFIQUE FR

6 MAX PLANCK GESELLSCHAFT ZUR FOERDERUNG DER WISSENSCHAFTEN E.V. DE

7 UNIVERSITE CATHOLIQUE DE LOUVAIN BE

8 FUNDACIO INSTITUT CATALA DE CIENCIES DEL CLIMA ES


10 ALFRED-WEGENER-INSTITUT HELMHOLTZ- ZENTRUM FUER POLAR- UND MEERESFORSCHUNG DE



13 EUROPEAN CENTRE FOR MEDIUM-RANGE WEATHER FORECASTS UK


15 UNIVERSITY OF LEEDS UK

16 STOCKHOLMS UNIVERSITET SE

17 SCIENCE AND TECHNOLOGY FACILITIES COUNCIL UK

18 PREDICTIA INTELLIGENT DATA SOLUTIONS SL ES

19 DEUTSCHES KLIMARECHENZENTRUM GMBH DE


- 11 -

H2020-SC5-2014-two-stage CRESCENDO 641816

Title: Coordinated Research in Earth Systems and Climate: Experiments, kNowledge, Dissemination and Outreach



CRESCENDO brings together seven Earth System Modelling (ESM) groups with three Integrated Assessment Modelling teams, as well as experts in ESM evaluation, ESM projection and feedback analysis, climate impacts and science communication to address the following goals; (i) improve the process-realism and simulation-quality of European ESMs in order to increase the reliability of future Earth system projections; (ii) develop and apply a community ESM evaluation tool allowing routine ESM performance benchmarking, process-based ESM evaluation and the analysis of Earth system projections. The resulting tool will be installed and made openly-available on the Earth System Grid Federation (ESGF); (iii) further develop the discipline of emergent constraints in order to better constrain the representation of key biogeochemical and aerosol feedbacks in ESMs and thereby reduce overall uncertainty in Earth system projections; (iv) quantify the effective radiative forcing of key biogeochemical and aerosol feedbacks in ESM projections; (v) contribute to the development of a new set of combined socio-economic and climate emission scenarios that more explicitly link future socio-economic development pathways with global radiative forcing; (vi) apply the project ESMs to these new scenario data to generate an ensemble of Earth system projections for the coming century and, in combination with the underlying socio-economic scenarios, use these projections to assess joint risks and co-benefits related to climate change, climate impacts, adaptation and mitigation; (vii) ensure data produced by CRESCENDO is available to the international community through timely archival on the ESGF and work closely with climate impact assessment and regional downscaling teams to ensure maximum uptake and use of these data in such complementary areas of science; (viii) actively disseminate knowledge generated in CRESCENDO to fellow scientists, policymakers and the general public.

Abstract:

Partners:


1 UNIVERSITY OF LEEDS UK


3 MAX PLANCK GESELLSCHAFT ZUR FOERDERUNG DER WISSENSCHAFTEN E.V. DE


5 MET OFFICE UK


7 DEUTSCHES ZENTRUM FUER LUFT - UND RAUMFAHRT EV DE

8 KONINKLIJK NEDERLANDS METEOROLOGISCH INSTITUUT-KNMI NL

9 METEOROLOGISK INSTITUTT NO

10 SVERIGES METEOROLOGISKA OCH HYDROLOGISKA INSTITUT SE

11 THE UNIVERSITY OF READING UK

12 AGENZIA NAZIONALE PER LE NUOVE TECNOLOGIE, L'ENERGIA E LO SVILUPPO ECONOMICO SOSTE IT

13 METEO-FRANCE FR

14 UNIVERSITY OF EAST ANGLIA UK

15 UNIVERSITAET HAMBURG DE

16 EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZURICH CH

17 UNIVERSITETET I BERGEN NO

18 MINISTERIE VAN INFRASTRUCTUUR EN MILIEU NL

19 LUNDS UNIVERSITET SE

20 POTSDAM INSTITUT FUER KLIMAFOLGENFORSCHUNG DE



23 INTERNATIONALES INSTITUT FUER ANGEWANDTE SYSTEMANALYSE AT

24 ILMATIETEEN LAITOS FI


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H2020-SC5-2014-two-stage TRANSrisk 642260

Title: Transitions pathways and risk analysis for climate change mitigation and adaption strategies

Topic: SC5-03a-2014 Type of Action RIA Duration (months): 36


Both the models concerning the future climate evolution and its impacts, as well as the models assessing the costs and benefits associated with different mitigation pathways face a high degree of uncertainty. There is an urgent need to not only understand the costs and risks associated with climate change but also the risks, uncertainties and co-effects related to different mitigation pathways as well as public acceptance (or lack thereof) of low-carbon (technology) options. The main aims and objectives of TRANSrisk therefore are to create a novel assessment framework for analysing costs and benefits of transition pathways, that will integrate well-established approaches to modelling the costs of resilient, low-carbon pathways with a wider interdisciplinary approach including risk assessments. In addition TRANSrisk aims to design a decision support tool that should help policy makers to better understand uncertainties and risks and enable them to include risk assessments into more robust policy design.

Abstract:

Partners:


1 UNIVERSITY OF SUSSEX UK


3 CAMBRIDGE ECONOMETRICS LIMITED UK

4 STICHTING ENERGIEONDERZOEK CENTRUM NEDERLAND NL

5 FUNDACJA NAUKOWA INSTYTUT BADAN STRUKTURALNYCH PL

6 ETH Zurich CH

7 STICHTING JOINT IMPLEMENTATION NETWORK NL


9 UNIVERSITAET GRAZ AT

10 UNIVERSITY OF PIRAEUS RESEARCH CENTER EL

11 NATIONAL TECHNICAL UNIVERSITY OF ATHENS - NTUA EL

12 CLAPESUC CL


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H2020-SC5-2014-two-stage GREEN-WIN 642018

Title: Green growth and win-win strategies for sustainable climate action

Topic: SC5-03b-2014 Type of Action RIA Duration (months): 36


The GREEN-WIN project will develop a major international transdisciplinary research collaboration to apply a solution-oriented approach targeted at increasing the understanding of links between climate action and sustainability and overcoming implementation barriers through win-win strategies. The project will critically assess where and under which conditions win-win and in particular green growth strategies work in practice and where fundamental trade-offs must be faced. We thereby focus on four critical barriers that have been identified by practitioners and policy makers. First, we develop transformative narratives highlighting opportunities in climate and sustainability action in order to contribute to overcoming cognitive barriers and empowering people. Second, we examine climate and sustainability finance policies and governance arrangements in order to contribute to overcoming financial barriers to mitigation and adaptation. Third, we substantiate the economics of green growth in order to contribute to overcoming economic and collective action barriers to de-carbonisation. Towards this end we introduce major innovations into the GEM-E3 computable general equilibrium model required to discover green growth strategies. These include developing a network-based model of technological diffusion, and introducing financial market constraints and adaptive expectations of agents. Fourth, we contribute to overcoming economic and institutional barriers through identifying win-win strategies, sustainable business models and enabling environments in three action fields of coastal zone flood risk management, urban transformations and energy poverty eradication and resilience. We embed all these activities within a sustained international dialogue involving stakeholders from policy, research, civil society and the private sector, and an open knowledge management and capacity building strategy to promote knowledge transfer and learning beyond the project lifespan.

Abstract:

Partners:


1 GCF - GLOBAL CLIMATE FORUM EV DE

2 UNIVERSITAT AUTONOMA DE BARCELONA ES

3 E3-Modelling.PC EL


5 ECOLE D'ECONOMIE DE PARIS FR

6 UNIVERSITY COLLEGE LONDON UK

7 Ground Up Association CH

8 STICHTING DELTARES NL

9 INSTITUTE FOR ADVANCED SUSTAINABILITY STUDIES EV DE

10 Global Green Growth Institute UK

11 JAGER JILL AT

12 UNIVERSITA CA' FOSCARI VENEZIA IT

13 BOGAZICI UNIVERSITESI TR

14 Center for Remote Sensing and Ocean Sciences, Udayana University ID

15 UNIVERSITY OF CAPE TOWN ZA

16 2 INVESTING INITIATIVE (2II) FR


- 14 -

H2020-SC5-2014-two-stage CD-LINKS 642147

Title: Linking Climate and Development Policies - Leveraging International Networks and Knowledge Sharing



An important question for policy makers, in the G20 and beyond, is how to bring climate action into the broader sustainable development agenda. Objectives like energy poverty eradication, increased well-being and welfare, air quality improvement, energy security enhancement, and food and water availability will continue to remain important over the next several decades. There have been relatively few scientific analyses, however, that have explored the complex interplay between climate action and development while simultaneously taking both global and national perspectives. The CD-LINKS project will change this, filling this critical knowledge gap and providing much-needed information for designing complementary climate-development policies. CD-LINKS has four overarching goals: (i) to gain an improved understanding of the linkages between climate change policies (mitigation/adaptation) and multiple sustainable development objectives, (ii) to broaden the evidence base in the area of policy effectiveness by exploring past and current policy experiences, (iii) to develop the next generation of globally consistent, national low-carbon development pathways, and (iv) to establish a research network and capacity building platform in order to leverage knowledge-exchange among institutions from Europe and other key players within the G20. Through six highly integrated work packages from empirical research to model and scenario development CD-LINKS will advance the state-of-the-art of climate-development policy analysis and modelling in a number of areas. The project aims to have a pronounced impact on the policy dialogue, both nationally and internationally: an important outcome of the project will be a list of country-specific policy recommendations for effectively managing the long-term transformation process. These recommendations will point out opportunities for policy synergies and at the same time respect political and institutional barriers to implementation.

Abstract:

Partners:


1 INTERNATIONALES INSTITUT FUER ANGEWANDTE SYSTEMANALYSE AT

2 POTSDAM INSTITUT FUER KLIMAFOLGENFORSCHUNG DE



5 INSTITUTE OF COMMUNICATION AND COMPUTER SYSTEMS EL

6 WAGENINGEN UNIVERSITY NL

7 UNIVERSITY OF EAST ANGLIA UK

8 FONDATION INSTITUT DE RECHERCHE POUR LE DEVELOPPEMENT DURABLE ET LES RELATIONS INT FR

9 FUNDACAO COORDENACAO DE PROJETOS PESQUISAS E ESTUDOS TECNOLOGICOS COPPETEC BR

10 NATIONAL DEVELOPMENT AND REFORM COMMISSION ENERGY RESEARCH INSTITUTE CN

11 TSINGHUA UNIVERSITY CN

12 INDIAN INSTITUTE OF MANAGEMENT IN

13 THE ENERGY AND RESOURCES INSTITUTE IN

14 FEDERAL STATE AUTONOMOUS EDUCATIONAL INSTITUTION FOR HIGHER PROFESSIONAL EDUCATI RU

15 NATIONAL INSTITUTE FOR ENVIRONMENTAL STUDIES INCORPORATED ADMINISTRATIVE AGENCY JP

16 RESEARCH INSTITUTE OF INNOVATIVE TECHNOLOGY FOR THE EARTH JP


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H2020-SC5-2014-one-stage CARISMA 642242

Title: Coordination and Assessment of Research and Innovation in Support of Climate Mitigation Actions

Topic: SC5-05a-2014 Type of Action CSA Duration (months): 42


The CARISMA project has two overall objectives. First, through effective stakeholder consultation and communication leading to improved coordination and assessment of climate change mitigation options, it aims to benefit research and innovation efficiency as well as international cooperation on research and innovation and technology transfer. Second, it seeks to assess policy and governance questions that shape the prospects of climate change mitigation options, and discuss the results with representatives from the CARISMA target audiences to incorporate what can be learned for the benefit of climate change mitigation. The experienced, interdisciplinary and diverse CARISMA consortium has an extensive track record of collaborating in Framework Programme projects. It combines capacity for technological, environmental, economic and social assessment with deep expertise across a range of climate change mitigation options, encompassing mature and emerging technologies as well as practices and governance, which are increasingly identified as important areas to achieve deep greenhouse gas emission reductions. Communication with, and support to, the CARISMA target audiences are an integral part of the project. In all inventory and assessment activities envisaged in the project, interaction with stakeholders is a key part. To facilitate coordination and avoid overlap, these activities are overseen by a dedicated work package. The target audiences include national and local policymakers, innovation and strategy managers in business and industry, research funding organisations and the research community. The CARISMA project will result in online platform services, face-to-face interactions, policy briefs and publications and increased capacity in the EU, Accession Countries and beyond, to address the climate change challenge and move towards a green, innovative and thriving global economy.

Abstract:

Partners:


1 STICHTING KATHOLIEKE UNIVERSITEIT NL

2 UNIVERSITY OF PIRAEUS RESEARCH CENTER EL

3 STICHTING JOINT IMPLEMENTATION NETWORK NL

4 CDC CLIMAT FR

5 UNIVERSITAET GRAZ AT


7 ZENTRUM FUER EUROPAEISCHE WIRTSCHAFTSFORSCHUNG GmbH DE

8 CENTRE FOR EUROPEAN POLICY STUDIES BE

9 ENVIROS S.R.O. CZ

10 DANMARKS TEKNISKE UNIVERSITET DK


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H2020-SC5-2014-two-stage AfricanBioServices 641918

Title: Linking biodiversity, ecosystem functions and services in the Great Serengeti-Mara Ecosystem (GSME) - drivers of change, causalities and sustainable management strategies



The direct dependence of humans on ecosystem services is by far strongest in developing regions where poverty restricts access to resources. This dependency also makes people in developing countries more sensitive to climate change than their developed counterparts. Increasing human populations deteriorates natural habitat, biodiversity and ecosystems services which spiral into poverty and low human welfare. This calls for innovative solutions that encompass the entire socio-ecological-economic system, as recognized on a global scale in the Millennium Ecosystem Assessment. However, innovative and practical solutions require downscaling to regional levels for identifying concrete sets of drivers of change. For Africa specifically, the interplay of human population growth, land use change, climate change and human well-being is a major challenge. This project focuses on the Serengeti-Maasai Mara Ecosystem and associated agricultural areas, a region in East Africa that encompasses parts of Kenya and Tanzania. The ecosystem is world-famous for key aspects of its biodiversity, such as the migration of 1.3 million wildebeest. This flagship ecosystem role will enhance the international interest in the project. In this project, internationally leading researchers from Norway, the Netherlands, Scotland, Denmark and Germany are teaming up with strong local partners in Tanzania and Kenya. The research will be organised in seven interlinked work packages: 1) assemble and integrate the so far separate Kenyan and Tanzanian relevant data on the region; 2) quantify the connections between human population growth, land use change, climate change and biodiversity change; 3) test how biodiversity change leads to changes in key ecosystem services; 4) quantify the dependence of human livelihoods on these ecosystem services. We will implement innovative ways for communication and dissemination of the results of continuous engagement by local stakeholders.

Abstract:

Partners:


1 NORGES TEKNISK-NATURVITENSKAPELIGEUNIVERSITET NTNU NO

2 RIJKSUNIVERSITEIT GRONINGEN NL

3 KOBENHAVNS UNIVERSITET DK

4 TANZANIA WILDLIFE RESEARCH INSTITUTE TZ

5 The University of Dodoma TZ

6 UNIVERSITAET HOHENHEIM DE

7 STIFTELSEN NORSK INSTITUTT FOR NATURFORSKNING NINA NO

8 International Livestock Research Institute KE

9 UNIVERSITY OF DAR ES SALAAM TZ

10 Sokoine University of Agriculture TZ

11 DRSRS KE

12 UNIVERSITY OF GLASGOW UK

13 Kenya Widlife Service KE


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H2020-SC5-2014-two-stage AQUACROSS 642317

Title: Knowledge, Assessment, and Management for AQUAtic Biodiversity and Ecosystem Services aCROSS EU policies (AQUACROSS)



AQUACROSS aims to support EU efforts to enhance the resilience and stop the loss of biodiversity of aquatic ecosystems as well as to ensure the ongoing and future provision of aquatic ecosystem services. It focuses on advancing the knowledge base and application of the ecosystem-based management concept for aquatic ecosystems by developing cost effective measures and integrated management practices. AQUACROSS considers the EU policy framework (i.e. goals, concepts, time frames) for aquatic ecosystems and builds on knowledge stemming from different sources (i.e. WISE, BISE, Member State reporting, modelling) to develop innovative management tools, concepts, and business models (i.e. indicators, maps, ecosystem assessments, participatory approaches, mechanisms for promoting the delivery of ecosystem services) for aquatic ecosystems at various scales. It thereby provides an unprecedented effort to unify policy concepts, knowledge, and management concepts of freshwater, coastal, and marine ecosystems to support the cost-effective achievement of the targets set out by the EU 2020 Biodiversity Strategy.

Abstract:

Partners:


1 ECOLOGIC INSTITUT gemeinntzige GmbH DE

2 FORSCHUNGSVERBUND BERLIN E.V. DE

3 UNITED NATIONS EDUCATIONAL, SCIENTIFIC AND CULTURAL ORGANIZATION -UNESCO FR


5 FUNDACION IMDEA AGUA ES

6 UNIVERSITAET FUER BODENKULTUR WIEN AT

7 UNIVERSIDADE DE AVEIRO PT

8 ACTEON SARL FR

9 THE UNIVERSITY OF LIVERPOOL UK

10 INSTITUT ROYAL DES SCIENCES NATURELLES DE BELGIQUE BE

11 UNIVERSITY COLLEGE CORK, NATIONAL UNIVERSITY OF IRELAND, CORK IE

12 STOCKHOLMS UNIVERSITET SE

13 INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE DELTA DUNARII RO

14 EIDGENOESSISCHE ANSTALT FUER WASSERVERSORGUNG ABWASSERREINIGUNG UND GEWAESS CH

15 UICN, BUREAU DE REPRESENTATION AUPRES DE L'UNION EUROPEENNE AISBL BE



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H2020-SC5-2014-one-stage BRODISE 642045

Title: BROWNFIELD Decontamination In Southern Europe. Preparing PCP to R+D for efficient, cost effective and innovative solutions for brownfields decontamination

Topic: SC5-08-2014 Type of Action CSA Duration (months): 20


Public procurement represents +/-19% of the EUs GDP. Historically a small and slower uptake of innovations has been witnessed along with the fragmentation of publ demand.. PE represents a fundamental driver of innovation and competitiveness.Urban regeneration conducted by Bilbao confirms that the development of mixed formulas publ-priv for projects of mutual interest entails higher quality, effectiveness+efficiency in the management of publ services. Innovation procurement of products and services can (i) be used to deliver societal objectives requiring new solutions not available on the market or too expensive (ii) solve problems related the commercialization of innovative solution (iii) improve quality+efficiency of publ services with better value 4 $. It is clearly set by the BRODISE project. Objectives:Mobilize publ+priv purchasers+cities networks of cities in SD, , to understand in-depth the technology state of the art and the innovation gap to be addressed by significant R&D,Structure+design a pcp initiative, leveraging the complementarity of the partners for bringing together the demand so create a critical mass for acquire cost-effective solutions, whilst creating new jobs and opportunities for business growth in Europe, specially SMEs. The driver is essentially economic. A complex challenge-based approach has been assumed by the consortium to:Confirm and describe a real technological demanding problem that impact negatively on the PE and on quality of life for all; Avoid the hyper-fragmentation of PP, pre-determine the condition for the development of new EU standard; Predetermine a competitive market, also enabling and preparing the participation of new players, Enable knowledge sharing.At the end the procurers will be able to lunch PCP and an earlier reality check of industry R&D Undertake efficient solutions for brownfields SD through PCP are: Decontaminate the entire brownfield, coordinate resources,use the most advanced innovative decont techniques.

Abstract:

Partners:


1 AYUNTAMIENTO DE BILBAO ES

2 MORAGUES AND SCADE ABOGADOS SA ES

3 BEDIN SARA IT

4 ASSOCIACAO PARQUE DE CIENCIA E TECNOLOGIA DE ALMADA/SETUBAL-MADAN PARQUE PT

5 MUNICIPIO DO SEIXAL PT

6 ENTE PER LA ZONA INDUSTRIALE DI TRIESTE IT

7 CONSORZIO PER L AREA DI RICERCA SCI ENTIFICA E TECNOLOGICA DI TRIESTE CONSORZIO AREA IT

8 BAIA DO TEJO, SA PT



11 CITTALIA-CENTRO EUROPEO DI STUDI ERICERCHE PER I COMUNI E LE CITTA-FONDAZIONE DI RICER IT


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H2020-SC5-2014-one-stage BiodivERsA3 642420

Title: Consolidating the European Research Area on biodiversity and ecosystem services

Topic: SC5-09-2014 Type of Action ERA-NET-Cofund Duration (months): 60


The loss of biodiversity and degradation of ecosystems jeopardize the sustainable provision of ecosystem services and are major scientific and societal challenges. Addressing this challenge and providing scientific support to stakeholders and policy makers requires a coherent interdisciplinary research framework, with coordinated strategies and programmes at the national, regional and international levels, which are the relevant scales for many biodiversity issues.By networking 32 funding agencies from 18 countries, BiodivERsA3 aims to strengthen the ERA on biodiversity. Building on the previous experiences of the projects BiodivERsA1&2 and NetBiome, BiodivERsA3 will promote and support coordinated pan-European research on biodiversity and ecosystem services. It will strengthen research and research programmes coordination with the ultimate aim to provide policy makers and other stakeholders with adequate knowledge, tools and practical solutions to address biodiversity and ecosystem degradation. The objectives are to: - Enhance the capacity of the network to coordinate research programmes on biodiversity and ecosystem services more completely in Europe (including overseas territories) and to increase the international dimension of BiodivERsA activities- Develop a strategic, multi-annual vision of the networks priorities, based on ambitious mapping and foresight activities developed in collaboration with key initiatives in the field- Design and implement a co-funded call and other joint calls to better integrate research on biodiversity and ecosystem services across Europe- Develop a range of other joint activities, in particular alignment of national research programmes for biodiversity and ecosystem services, and activities for promoting mobility and equal opportunities for researchers and reinforcing data sharing- Promote effective science-policy and science-society (including science-business) dialogue during the whole research process

Abstract:

Partners:


1 FONDATION FRANCAISE POUR LA RECHERCHE SUR LA BIODIVERSITE FR

2 FONDS ZUR FRDERUNG DER WISSENSCHAFTLICHEN FORSCHUNG AT

3 SERVICE PUBLIC FEDERAL DE PROGRAMMATION POLITIQUE SCIENTIFIQUE BE

4 FONDS VOOR WETENSCHAPPELIJK ONDERZOEK-VLAANDEREN BE

5 NATIONAL SCIENCE FUND BG

6 SIHTASUTUS EESTI TEADUSAGENTUUR EE

7 AGENCE NATIONALE DE LA RECHERCHE FR

8 MINISTERE DE L'ECOLOGIE, DU DEVELOPPEMENT DURABLE ET DE L'ENERGIE FR

9 AGENCE DE DEVELOPPEMENT ECONOMIQUE DE LA NOUVELLE CALEDONIE ASSOCIATION FR

10 GUADELOUPE REGION FR

11 REGION GUYANE FR

12 REGION REUNION FR

13 DEUTSCHE FORSCHUNGSGEMEINSCHAFT DE

14 DEUTSCHES ZENTRUM FUER LUFT - UND RAUMFAHRT EV DE

15 VIDEKFEJLESZTESI MINISZTERIUM HU

16 Lietuvos mokslo taryba LT

17 NEDERLANDSE ORGANISATIE VOOR WETENSCHAPPELIJK ONDERZOEK NL

18 NORGES FORSKNINGSRAD NO

19 NARODOWE CENTRUM NAUKI PL

20 FUNDACAO PARA A CIENCIA E A TECNOLOGIA PT

21 FUNDO REGIONAL PARA A CIENCIA PT

22 Unitatea Executiva pentru Finantarea Invatamantului Superior, a Cercetarii, Dezvoltarii si Inovarii RO

23 MINISTERIO DE ECONOMIA Y COMPETITIVIDAD ES

24 GOBIERNO DE CANARIAS ES

25 FORSKNINGSRDET FR MILJ, AREELLA NRINGAR OCH SAMHLLSBYGGANDE SE

26 NATURVARDSVERKET SE

27 SCHWEIZERISCHER NATIONALFONDS ZUR FORDERUNG DER WISSENSCHAFTLICHEN FORSCHUNG CH

28 MINISTRY OF FOOD AGRICULTURE AND LIVESTOCK TR

29 THE SECRETARY OF STATE FOR ENVIRONMENT, FOOD AND RURAL AFFAIRS UK

30 JNCC SUPPORT CO LBG UK

31 NATURAL ENVIRONMENT RESEARCH COUNCIL UKThe information presented in this document is partly provisional and subject to potential modifications.

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H2020-SC5-2014-one-stage ESMERALDA 642007

Title: Enhancing ecoSysteM sERvices mApping for poLicy and Decision mAking



Mapping and assessment of ecosystems and their services (ES) are core to the EU Biodiversity (BD) Strategy. They are essential if we are to make informed decisions. Action 5 sets the requirement for an EU-wide knowledge base designed to be: a primary data source for developing Europes green infrastructure; resource to identify areas for ecosystem restoration; and, a baseline against which the goal of no net loss of BD and ES can be evaluated. In response to these requirements, ESMERALDA aims to deliver a flexible methodology to provide the building blocks for pan-European and regional assessments. The work will ensure the timely delivery to EU member states in relation to Action 5 of the BD Strategy, supporting the needs of assessments in relation to the requirements for planning, agriculture, climate, water and nature policy. This methodology will build on existing ES projects and databases (e.g. MAES, OpenNESS, OPERAs, national studies), the Millennium Assessment (MA) and TEEB. ESMERALDA will identify relevant stakeholders and take stock of their requirements at EU, national and regional levels. The objective of ESMERALDA is to share experience through an active process of dialogue and knowledge co-creation that will enable participants to achieve the Action 5 aims. The mapping approach proposed will integrate biophysical, social and economic assessment techniques. Flexibility will be achieved by the creation of a tiered methodology that will encompass both simple (Tier 1) and more complex (Tier 3) approaches. The work will exploit expert- and land cover-based methods, existing ES indicator data and more complex ES models. As a result the outcomes will be applicable in different contexts. The strength of the ESMERALDA consortium lies in its ability to make solutions for mapping and assessment problems available to stakeholders from the start of the project, because our expertise allows us to build on existing research projects and data sharing systems.

Abstract:

Partners:


1 CHRISTIAN-ALBRECHTS-UNIVERSITAET ZU KIEL DE

2 SUOMEN YMPARISTOKESKUS FI

3 UNIVERSIDAD AUTONOMA DE MADRID ES

4 THE UNIVERSITY OF NOTTINGHAM UK

5 UNIVERSITA DEGLI STUDI DI TRENTO IT

6 Pensoft Publishers Ltd BG

7 STICHTING VU-VUMC NL

8 VLAAMSE INSTELLING VOOR TECHNOLOGISCH ONDERZOEK N.V. BE

9 NATIONAL INSTITUTE OF GEOPHYSICS GEODESY AND GEOGRAPHY - BULGARIAN ACADEMY OF SCI BG

10 CENTRUM VYZKUMU GLOBALNI ZMENY AV CR VVI CZ

11 STICHTING VOOR DUURZAME ONTWIKKELING NL

12 EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZUERICH CH

13 BALTIJAS VIDES FORUMS LV

14 REGIONAL ENVIRONMENTAL CENTER FOR CENTRAL AND EASTERN EUROPE -REC HU

15 MAGYAR TUDOMANYOS AKADEMIA OKOLOGIAI KUTATOKOZPONT HU

16 INSTITUTO SUPERIOR TECNICO PT

17 UNIVERSITATEA DIN BUCURESTI RO

18 WCMC LBG UK

19 PARIS-LODRON-UNIVERSITAT SALZBURG AT

20 UNIWERSYTET IM. ADAMA MICKIEWICZA W POZNANIU PL

21 INSTITUT NATIONAL DE RECHERCHE EN SCIENCES ET TECHNOLOGIES POUR L'ENVIRONNEMENT ET FR

22 MALTA COLLEGE OF ARTS SCIENCE AND TECHNOLOGY MT

23 KOBENHAVNS UNIVERSITET DK

24 NATURVARDSVERKET SE

25 JRC -JOINT RESEARCH CENTRE- EUROPEAN COMMISSION BE


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H2020-SC5-2014-one-stage INSPIRATION 642372

Title: INtegrated Spatial PlannIng, land use and soil management Research ActTION

Topic: SC5-10b-2014 Type of Action CSA Duration (months): 36


The aim of INSPIRATION is to adopt a funder and end-user demand-driven approach to establish and promote the adoption of the knowledge creation, transfer and implementation agenda for land use, land-use changes and soil management in the light of current and future societal challenges. Main objectives are: Formulate, consult on and revise an end-user oriented strategic research agenda (SRA), Scope out models of implementing the SRA, Prepare a network of public and private funding institutions willing to commonly fund the execution of the SRA. INSPIRATIONs mission is to improve the supply and effectiveness of science/knowledge take-up by those who really need it. The proposed methodology is based on a multi-stakeholder, multi-national and interdisciplinary approach that covers the variety of stakeholders (public bodies, business, science, citizens and society) and the variety of relevant. The vehicle to engage with all relevant stakeholders across the Member States is a National Focal Point (NFP) in 16 countries. The NFPs will organize workshops with national stakeholders of funders, end users and researchers across the various soil and land management disciplines. The results will be taken up, structured along four integrative themes and merging into thematic knowledge needs to satisfy the as yet unmet societal challenges and to ensure that knowledge contributes primarily to enable meeting these challenges. Based on these results a cross country and cross discipline dialogue will subsequently be organized among the relevant user communities, funding bodies and scientific communities in Europe in order to reach a trans-national, prioritized SRA as well as a model for execution of this SRA. Thus to achieve an SRA of which national funders believe that for any Euro they spend, they will get a multitude of Euros worth of knowledge in return. Knowledge welcomed to face their national, societal challenges.

Abstract:

Partners:


1 UMWELTBUNDESAMT DE

2 BUREAU DE RECHERCHES GEOLOGIQUES ET MINIERES FR

3 INSTYTUT EKOLOGII TERENOW UPRZEMYSLOWIONYCH PL

4 Institute of Geonics of the AS CR, v.v.i. CZ

5 UNIVERSIDADE DO ALGARVE PT

6 OPENBARE VLAAMSE AFVALSTOFFENMAATSCHAPPIJ BE

7 SITI - ISTITUTO SUPERIORE SUI SISTEMI TERRITORIALI PER L'INNOVAZIONE IT

8 URBANISTICNI INSTITUT REPUBLIKE SLOVENIJE SI

9 EIDGENOESSISCHE FORSCHUNGSANSTALT WSL CH

10 DR. FERBER, UWE UND GRAUMANN, DOREEN PROJEKTGRUPPE STADT + ENTWICKLUNG DE

11 THE UNIVERSITY OF NOTTINGHAM UK


13 HELMHOLTZ-ZENTRUM FUER UMWELTFORSCHUNG GMBH - UFZ DE

14 STICHTING DELTARES NL

15 EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZUERICH CH

16 SLOVENSKA TECHNICKA UNIVERZITA V BRATISLAVE SK

17 DIU DRESDEN INTERNATIONAL UNIVERSITY GMBH DE

18 UNIVERSITAET FUER BODENKULTUR WIEN AT

19 INSTITUTUL NATIONAL DE CERCETARE-DEZVOLTARE PENTRU PEDOLOGIE, AGROCHIMIE SI PROTEC RO


21 SUOMEN YMPARISTOKESKUS FI


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H2020-SC5-2014-one-stage Real-Time-Mining 641989

Title: Real-time optimization of extraction and the logistic process in highly complex geological and selective mining settings



The overall aim of Real-Time-Mining is to develop a real-time framework to decrease environmental impact and increase resource efficiency in the European raw material extraction industry. The key concept of the proposed research promotes the change in paradigm from discontinuous intermittent process monitoring to a continuous process and quality management system in highly selective mining operations. Real-Time Mining will develop a real-time process-feedback control loop linking online data acquired during extraction at the mining face rapidly with an sequentially up-datable resource model associated with real-time optimization of long-term planning, short-term sequencing and production control decisions. The project will include research and demonstration activities integrating automated sensor based material characterization, online machine performance measurements, underground navigation and positioning, underground mining system simulation and optimization of planning decisions, state-of-the art updating techniques for resource/reserve models. The impact of the project is expected on the environment through a reduction in CO2-emissions, increased energy efficiency and production of zero waste by maximizing process efficiency and resource utilization. Currently economically marginal deposits or difficult to access deposits will be become industrial viable. This will result in a sustainable increase in the competitiveness of the European raw material extraction through a reduced dependency on raw materials from non-EU sources.

Abstract:

Partners:


1 TECHNISCHE UNIVERSITEIT DELFT NL

2 RHEINISCH-WESTFAELISCHE TECHNISCHE HOCHSCHULE AACHEN DE

3 IMPERIAL COLLEGE OF SCIENCE, TECHNOLOGY AND MEDICINE UK

4 ASSOCIACAO DO INSTITUTO SUPERIOR TECNICO PARA A INVESTIGACAO E DESENVOLVIMENTO PT


6 GEOVARIANCES SA FR

7 DASSAULT SYSTEMES GEOVIA LTD UK

8 LSA-LASER ANALYTICAL SYSTEMS & AUTOMATION GMBH DE

9 XGRAPHIC INGENIEURGESELLSCHAFT MBH DE

10 SONICSAMPDRILL BV NL

11 TECHNISCHE UNIVERSITAET BERGAKADEMIE FREIBERG DE

12 SPECTRAL INDUSTRIES BV NL

13 IBEWA INGENIEURPARTNERSCHAFT FUR BERGBAU WASSER UND DEPONIETECHNIK WILSNACK & P DE


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H2020-SC5-2014-one-stage BioMOre 642456

Title: New Mining Concept for Extracting Metals from Deep Ore Deposits using Biotechnology



BioMOre describes a New Mining Concept for Extracting Metals from Deep Ore Deposits using Biotechnology. The concept is to use hydrofracturing for stimulation and bioleaching for winning of ores. The final process will consist of a so-called doublet, which is two deviated and parallel wells.In order to avoid high costs for drilling from the surface, the BioMOre approach is divided into two phases. Phase 1 will be research on the intended bioleaching process whereas phase 2 will aim at a pilot installation to demonstrate the applicability of the process in large scale including hydro-fracturing and access of the deposit from surface.The first phase should cover the intended work of the current BioMOre approach without drilling from surface.The BioMOre project aims at extracting metals from deep mineralized zones in Europe (Poland-Germany, Kupferschiefer deposit as a test case) by coupling solution mining and bioleaching. Selected sustainability indicators based on regulatory requirements of the European Commission will be applied for feasibility considerations.The main objective of the BioMOre first phase is to design and build an underground test facility for testing the concept of combined hydro-fracturing and bioleaching. The test facility will comprise a 100 m ore block, where boreholes will be drilled horizontally using standard equipment. All necessary equipment for testing different parameters of the intended bioleaching process will be established underground.The intention is to test the bioleaching process in high detail in an in-situ environment at the same time avoiding time consuming and risky permission procedures. On the other hand, the application for the permission of underground test operation must contain detailed information about monitoring of tests and all material controls. No harmful substances will remain in the mine after the tests are completed. Further to that, predictive numerical modelling of a pilot installation should be done.

Abstract:

Partners:


1 KGHM POLSKA MIEDZ SA PL

2 Mineral Industry Research Organisation UK

3 AKADEMIA GORNICZO-HUTNICZA IM. STANISLAWA STASZICA W KRAKOWIE PL

4 BANGOR UNIVERSITY UK

5 BUNDESANSTALT FUER GEOWISSENSCHAFTEN UND ROHSTOFFE DE


7 COBRE LAS CRUCES SA ES


9 DMT GmbH & CO. KG DE

10 G.E.O.S.INGENIEURGESELLSCHAFT MBH DE

11 GEOLOGIAN TUTKIMUSKESKUS FI

12 HATCH ASSOCIATES LIMITED UK

13 HELMHOLTZ-ZENTRUM DRESDEN-ROSSENDORF EV DE

14 INSTYTUT METALI NIEZELAZNYCH PL

15 KEMAKTA KONSULT AB SE

16 KGHM CUPRUM SP ZOO CENTRUM BADAWCZO-ROZWOJOWE PL

17 KGHM KUPFER AG DE

18 MINTEK ZA


20 TTY-SAATIO FI

21 UMWELT- UND INGENIEURTECHNIK GMBH DRESDEN DE

22 TEKNOLOGIAN TUTKIMUSKESKUS VTT FI


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H2020-SC5-2014-one-stage VAMOS 642477

Title: Viable and Alternative Mine Operating System!



Estimates indicate that the value of unexploited European mineral resources at a depth of 500-1,000 metres is ca 100 billion, however, a number of physical, economic, social, environmental and human constraints have as yet limited their exploitation.VAMOS! will provide a new Safe, Clean and Low Visibility Mining Technique and will prove its Economic Viability for extracting currently unreachable mineral deposits, thus encouraging investment and helping to put the EU back on a level playing field in terms of access to strategically important minerals. Deriving from successful deep-sea mining techniques, the VAMOS! mining solution aspires to lead to: Re-opening abandoned mines; Extensions of opencut mines which are limited by stripping ratio, hydrological or geotechnical problems; and opening of new mines in the EU.VAMOS! will design and manufacture innovative automated excavation equipment and environmental impact monitoring tools that will be used to perform field tests in four mine sites across Europe with a range of rock hardness and pit morphology. VAMOS will:1.Develop a prototype underwater, remotely controlled, mining machine with associated launch and recovery equipment2.Enhance currently available underwater sensing, spatial awareness, navigational and positioning technology3.Provide an integrated solution for efficient Real-time Monitoring of Environmental Impact4.Conduct field trials with the prototype equipment in abandoned and inactive mine sites with a range of rock types and at a range of submerged depths5.Evaluate the productivity and and cost of operation to enable mine-ability and economic reassessment of the EU's mineral resources.6. Maximize impact and enable the Market Up-Take of the proposed solutions by defining and overcoming the practicalities of the concept, proving the operational feasibility and the economic viability.7. Contribute to the social acceptance of the new extraction technique via public demonstrations in EU regions.

Abstract:

Partners:


1 BMT GROUP LIMITED UK

2 SOIL MACHINE DYNAMICS LIMITED UK

3 DAMEN DREDGING EQUIPMENT BV NL

4 INESC PORTO - INSTITUTO DE ENGENHARIA DE SISTEMAS E COMPUTADORES DO PORTO PT

5 FUGRO EMU LIMITED UK

6 Zentrum fuer Telematik e.V. DE

7 MONTANUNIVERSITAET LEOBEN AT

8 MINERALIA-MINAS, GEOTECNIA E CONSTRUCOES LDA PT

9 MARINE MINERALS LIMITED UK

10 EMPRESA DE DESENVOLVIMENTO MINEIRO PT

11 SANDVIK MINING AND CONSTRUCTION GMBH AT

12 GEOLOSKI ZAVOD SLOVENIJE SI

13 LA PALMA RESEARCH CENTRE FOR FUTURE STUDIES SL ES

14 FEDERATION EUROPEENNE DES GEOLOGUES FR

15 TRELLEBORG EDE B.V. NL

16 FEDERALNI ZAVOD ZA GEOLOGIJU SARAJEVO BA

17 FONDACIJA ZA OBNOVU I RAZVOJ REGIJE VARES BA


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H2020-SC5-2014-one-stage FAME 641650

Title: Flexible and Mobile Economic Processing Technologies



FAME aims to increase the competiveness of the mining of European mineral resources and to stimulate more private engagement and investment and thus business development with the potential to maintain and create high quality jobs within the EU28. The focus and a principal aim is to enhance mineral processing and mining skills within Europe. A medium to ling term aim is to reduce the reliance of European Industry and consumers on raw materials that currently have to be imported from outside EU28. FAME will contribute to the more efficient exploitation European domestic mineral resources including previously undeveloped resources that have the potential to contribute to the securing of raw material supply by optimising the extraction and processing of ores that include raw materials critical to the economic development of the EU (critical raw materials, CRM) and which occur in widespread deposits across the EU. This project specifically addresses primary ore deposits with skarn, pegmatite and greisen ores as they offer the most promising potential for this purpose. This proposal will consider the flexibility (and to an extent the mobility) of the processing concept, in particular, by ensuring the modularity of individual project components. FAME will consider flexible and modular processing technology demonstrated in relevant operational environments (industrially relevant environments in the case of key enabling technologies (TRL). TRL6 is envisaged feasible for processing of pegmatites, whereas TRL5 is considered more realistic for other types of ore body. The consortium has 16 partners from 7 European countries and includes industry, academia and governmental institutions. The consortium has a strong industrial background and involves strategically important reference deposits operated or/and accessible to the project partners and, additionally, associated partners within the EU28 nations and Greenland.

Abstract:

Partners:


1 WARDELL ARMSTRONG LLP UK

2 GEOKOMPETENZZENTRUM FREIBERG EV DE

3 G.E.O.S.INGENIEURGESELLSCHAFT MBH DE

4 NICKELHUTTE AUE GMBH DE

5 EUROCOLT RESOURCES PT

6 GEOMET SRO CZ

7 Keliber Oy FI

8 GBM MINERALS ENGINEERING CONSULTANTS LIMITED UK


10 GEOLOGIAN TUTKIMUSKESKUS FI

11 Laboratorio Nacional de Energia e Geologia I.P. PT


13 NATURAL HISTORY MUSEUM UK

14 UNIVERSITE DE LORRAINE FR

15 UNIVERSIDADE DO PORTO PT

16 LULEA TEKNISKA UNIVERSITET SE


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H2020-SC5-2014-one-stage OptimOre 642201

Title: Increasing yield on Tungsten and Tantalum ore production by means of advanced and flexible control on crushing, milling and separation process



Modern economy is highly dependent on specific raw materials, and it is envisaged that this dependency will increase in the near future. Most of them are scarce in EU and of poor purity, being mixed within complex and low grade aggregates which need to be processed by means of a separation process consuming high quantities of energy and water, and even in some cases this makes its exploitation unfeasible due to production costs. Being EU dependent on some of these materials, as identified by EIP initiative, our society is demanding more efficient extracting processes to contribute to major European independency on these Critical Raw Materials.Tungsten and Tantalum ores are two recognized CRMs: In a market currently dominated by China and Russia production (among others), in Europe Tungsten (limited) production is mostly concentrate into UK, Spain and Portugal . On the other side, Tantalum is a key element on electronics with clear EU external production dependency, as it is naturally really scarce in Europe (only 1% of world production is concentrated in EU). Knowing this situation, OptimOre Project proposes the research and development of modelling and control technologies, using advanced sensing and advanced industrial control by means of artificial intelligence techniques, for the more efficient and flexible Tantalum and Tungsten ores processing from crushing to separation process, with the participation of relevant international players in the mining field on research (Chalmers University- Dr. Magnus Evertsson, Exeter University with Dr. Richard Pascoe, Freiburg University with Dr. Holberg Lieberwirth, among others). The project proposes a 3 years collaboration among 8 partners of 4 different countries.

Abstract:

Partners:


1 UNIVERSITAT POLITECNICA DE CATALUNYA ES

2 CHALMERS TEKNISKA HOEGSKOLA AB SE


4 UNIVERSIDAD DE OVIEDO ES


6 INTERKONSULT LTD UK

7 EDMA INNOVA SL ES

8 HELMHOLTZ-ZENTRUM DRESDEN-ROSSENDORF EV DE


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H2020-SC5-2014-one-stage INREP 641864

Title: Towards Indium free TCOs



The goal of INREP is to develop and deploy valid and robust alternatives to indium (In) based transparent conductive electrode materials as electrodes. In-based materials, mainly ITO, are technologically entrenched in the commercial manufacture of components like LEDs (both organic and inorganic), solar cells, touchscreens, so replacing them with In-free transparent conducting oxides (TCOs) will require holistic approach.The INREP philosophy is to meet this challenge by addressing the whole value chain via an application focused research programme aiming at developing tailor made solutions for each targeted application.This programme will produce a complete evaluation of the relevant properties of the proposed TCOs, including the impact of deposition technique, and by doing so, devise optimum processes for their application in selected, high value application areas. The selected application areas are organic and inorganic light emitting diodes (LEDs), solar cells and touchscreens. The physical properties of interest are the transparency, electrical conductivity, work function, texture, and chemical and thermal stability.To reach its overall goal, INREP brings together industrial and academic experts in TCOs, the technology and processes for their deposition and their applications in a concerted research programme that will result in the creation of TCOs and deposition technologies with the optimum opto-electrical properties suitable for the economic and safe manufacture of the specified photonic or opto-electronic components.The approach will include life cycle assessments of the environmental impact of the developed TCO materials and of their formation technologies over the entire period from application in manufacturing, throughcomponent operation into waste management.

Abstract:

Partners:


1 UNIVERSITY OF BATH UK

2 CSEM CENTRE SUISSE D'ELECTRONIQUE ET DE MICROTECHNIQUE SA - RECHERCHE ET DEVELOPP CH

3 TECHNISCHE UNIVERSITEIT EINDHOVEN NL

4 Meyer Burger Research AG CH


6 SMIT OVENS BV NL

7 PLESSEY SEMICONDUCTORS LIMITED UK

8 INTERUNIVERSITAIR MICRO-ELECTRONICACENTRUM IMEC VZW BE

9 POLITECHNIKA LODZKA PL

10 PLASMA QUEST LIMITED UK

11 QUAD INDUSTRIES NV BE

12 SLOVENSKA TECHNICKA UNIVERZITA V BRATISLAVE SK

13 L - UP SAS FR


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H2020-SC5-2014-one-stage INFINITY 641927

Title: Indium-Free Transparent Conductive Oxides for Glass and Plastic Substrates



INFINITY will develop an inorganic alternative to a scarce and high cost material, indium tin oxide (ITO), currently used as a Transparent Conductive Coating (TCC) for display electrodes on glass and plastic substrates. The novel conductive materials to be developed in this project will be based on low cost sol-gel chemistry using more widely available metallic elements and will leverage recent advances in nanostructured coatings. Novel printing procedures will also be developed to enable direct writing of multi and patterned nano-layers, removing the waste associated with etch patterning.

Abstract:

Partners:


1 TWI LIMITED UK

2 L'UREDERRA, FUNDACION PARA EL DESARROLLO TECNOLOGICO Y SOCIAL ES

3 LEIBNIZ-INSTITUT FUER NEUE MATERIALIEN GEMEINNUETZIGE GMBH DE

4 UNIVERSITY OF HULL UK

5 I.G. CATALYSTS LTD UK

6 TECNOLOGIA NAVARRA DE NANOPRODUCTOS SL ES

7 BELECTRIC OPV GMBH DE


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H2020-SC5-2014-one-stage MINATURA 2020 642139

Title: Developing a concept for a European minerals deposit framework



The exploitation of minerals in Europe is an indispensable activity to ensure that the present and future needs of the European society can be met. This means that sufficient access is required to explore and exploit minerals. At the same time the mineral needs of our society must be met without compromising the ability of future generations to meet their own needs. Accordingly exploitable mineral deposits (known deposits, abandoned mines and historical mining sites) need to be assessed against other land uses, taking into account criteria such as habitats, other environmental concerns, priorities for settlements, etc. Access to mineral deposits, on the other hand, also meets public interests such as raw materials security (compared with many international access options). The deliberation between these diverse land uses requires adequate consideration of the exclusiveness, reversibility, and consequences on the surrounding. The overall objective of MINATURA 2020 is to develop a concept and methodology (i.e. a harmonised European regulatory/guidance/policy framework) for the definition and subsequent protection of mineral deposits of public importance in order to ensure their best use in the future. Providing a policy planning framework that comprises the sustainability principle for mining is the key driving force behind MINATURA.

Abstract:

Partners:


1 GUENTER TIESS AT

2 PAN EUROPEAN RESERVES AND RESOURCES REPORTING COMMITTEE BE

3 INDUSTRIAL MINERALS ASSOCIATION EUROPE BE


5 JU ZAVOD ZA GEOLOSKA ISTRAZIVANJA ME

6 MINISTARSTVO GOSPODARSTVA HERCEGBOSANSKE ZUPANIJE BA

7 POLSKA ACADEMIA NAUK INSTYTUT GOSPODARKI SUROWCAMI MINERALNYMI I ENERGIA PL

8 UNIVERSITY COLLEGE LONDON UK


10 UNIVERSITY COLLEGE CORK, NATIONAL UNIVERSITY OF IRELAND, CORK IE


12 ZAVOD ISKRIVA, ISKRISCE ZA RAZVOJ LOKALNIH POTENCIALOV SI

13 MAGYAR FOLDTANI ES GEOFIZIKAI INTEZET HU

14 UNIVERSITATEA DIN BUCURESTI RO


16 FUNDACAO DA FACULDADE DE CIENCIAS DA UNIVERSIDADE DE LISBOA PT

17 ZAVOD ZA PROSTORNO UREDENJE KOPRIVNICKO-KRIZEVACKE ZUPANIJE HR

18 STATNY GEOLOGICKY USTAV DIONYZA STURA SK

19 LULEA TEKNISKA UNIVERSITET SE

20 DRUSTVO TEHNICNIH VODIJ - POVRSINSKO ODKOPAVANJE SI

21 INSTITUTUL GEOLOGIC AL ROMANIEI RO

22 UNIVERSITY OF BELGRADE - FACULTY OF MINING AND GEOLOGY RS

23 MINERAL AND RESOURCE PLANNING ASSOCIATES LTD UK


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H2020-SC5-2014-one-stage INTRAW 642130

Title: International cooperation on Raw materials

Topic: SC5-13b-2014 Type of Action CSA Duration (months): 36


INTRAW will map and develop new cooperation opportunities related to raw materials in Australia, Canada, Japan, South Africa and the United States, addressing:

Research and innovation; Raw materials policies and strategies Joint educational and skills programmes; Licensing and permitting procedures; Data reporting systems; Exploration, extraction, processing and recycling practices; Management and substitution of Critical Raw Materials.

The outcome of the mapping and knowledge transfer activities will be used as a baseline to set and launch the European Unions International Observatory for Raw Materials as a definitive raw materials intelligence infrastructure, operating internationally. The Observatory will be a permanent body that will remain operational after the project completion, with a clear strategy and management approach, aiming for the establishment and maintenance of strong long-term relationships with the worlds key players in raw materials technology and scientific developments. The Observatory will not only continuously monitor cooperation possibilities but will also actively promote these via the establishment of dedicated bilateral and multilateral funding schemes and incentives for raw materials cooperation between the EU and technologically advanced countries outside the EU.

Abstract:

Partners:



2 COUNCIL FOR SCIENTIFIC AND INDUSTRIAL RESEARCH ZA



5 FUNDACAO PARA A CIENCIA E A TECNOLOGIA PT

6 ASSOCIACAO PORTUGUESA DOS INDUSTRIAIS DE MARMORES E RAMOS AFINS PT

7 AUSTRALIAN ACADEMY OF TECHNOLOGICAL SCIENCES AND ENGINEERING LIMITED AU



10 MISKOLCI EGYETEM HU

11 PAN EUROPEAN RESERVES AND RESOURCES REPORTING COMMITTEE BE

12 GUENTER TIESS AT

13 RECIFEMETAL-RECICLAGEM DE FERROS E METAIS SA PT

14 RESOURCES COMPUTING INTERNATIONAL LTD UK

15 AMERICAN GEOLOGICAL INSTITUTE US


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H2020-SC5-2014-one-stage green.eu 641974

Title: European Global Transition Network on Eco-Innovation, Green Economy and Sustainable Development

Topic: SC5-14-2014 Type of Action CSA Duration (months): 48


In the last two decades the world has experienced several crises. In light of these trends and to more effectively move towards sustainable development, several organisations and international actors have developed the concept of green economy as action-oriented approaches. Priority interventions are aimed at triggering technology adoption, and stimulate behavioural change. In fact, eco-innovation can be considered an enabler for a green economy to the same extent that the green economy can be understood as an enabler of sustainable development.Green.eu is designed to address these challenges, ranging the conceptualization of eco-innovation and the green economy, to the harmonization of the approaches needed to coherently assess performance, identify gaps (successes and failures) for the effective adoption of technologies that can create win-win results. In particular, the project is designed so as to improve (1) harmonization of definitions, (2) collection of relevant information on the performance of past and current efforts, and (3) coordination among stakeholders. Green.eu sees the main challenges in an improved understanding (and scientific assessment) of the concepts of green economy and eco-innovation, on the adaptation of policy agendas, the documentation of best practices and guidelines for knowledge transfer and transferability.The inter- and transdisciplinary green.eu network (including knowledge brokers, programme owners and global industry networks) is research based and aims to accelerate the transition towards a green economy significantly, with a European focus on co-development of knowledge. It aims to exploit win-win-opportunities and to improve the take up of R&D results. It includes the following work packages: Networking and co-ordination; Harmonization of concepts of green economy and eco-innovation; Eco-innovation policy agendas; Best practices, knowledge transfer, transferability; Integr

h2020 sc5 projects catalogue a4

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